The overall structure of the non-broken bridge casement window shows reliable characteristics in terms of wind pressure resistance. Its design starts from the principle of force, and the connection between the window frame and the window sash is strengthened. It can maintain the stability of the structure under the action of wind force, and is not easy to loosen or deform, providing a basic guarantee for resisting external wind pressure.
As the skeleton of the overall structure, the window frame plays a key role in wind pressure resistance. The profile used has sufficient rigidity to withstand the lateral pressure brought by the wind, and will not bend or twist due to excessive wind pressure. This sturdy window frame provides stable support for the entire window, allowing the window sash to fit tightly when closed and jointly resist the impact of wind pressure.
The sealed connection between the window sash and the window frame also enhances the ability to resist wind pressure. When closed, the sealing strip between the edge of the window sash and the window frame can bite tightly to form an overall force-bearing structure, dispersing the wind force to the entire window frame, and avoiding gaps caused by excessive local force. This tight connection not only improves the sealing, but also allows the window to maintain integrity under wind pressure and is not easily shaken by the wind.
The quality of hardware accessories has an important impact on the overall wind pressure resistance performance. The hinges, locks and other accessories of non-broken bridge casement windows have been tested for durability and can maintain a stable connection under repeated wind impacts. Even in strong winds, these accessories can firmly fix the window sashes, preventing them from shifting or loosening under the action of wind pressure, ensuring that the wind pressure resistance of the window is not affected.
When dealing with wind forces from different directions, its overall structure can also flexibly adapt. Whether it is wind pressure blowing from the front or air flow impact from the side, the structural design of the window can guide the force to the load-bearing part of the window frame, and resolve the impact of wind force through overall force. This all-round force design allows non-broken bridge casement windows to remain stable even in complex wind environments.
After long-term use, its wind pressure resistance performance can still remain stable. The stability of the profile prevents it from aging and becoming brittle over time, and the hardware accessories are not easy to lose their fastening function due to wear. Even after long-term exposure to wind and sun, the overall structure of the window can still maintain its original rigidity and connection strength, and the wind pressure resistance will not decrease significantly, continuing to provide reliable protection for the interior.
In addition, the fixing method during installation further enhances the wind pressure resistance. During the installation process, the window frame will be firmly fixed to the wall, forming a whole with the building structure, transferring the impact force brought by the wind to the wall, reducing the force burden on the window itself. This close integration with the building allows the non-broken bridge casement window to resist wind pressure with the support of the building when facing strong winds, further improving the reliability of its wind resistance.
